[Genetic defects of chromosome 5q and 7q in myeloid neoplasms].

In myeloid neoplasms, deletions of the long arm of chromosome 5 del(5q) and 7 (-7/del(7q) ) are common karyotypic abnormalities. The concurrence of del(5q) and -7/del(7q) accounts for poor prognosis in myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML). Comprehensive analysis of copy number abnormalities and genetic mutations related to del(5q) and -7/del(7q) revealed previously cryptic pathophysiology, leading to frequent hemizygous/homozygous mutations and haploinsufficiency. In addition, detailed somatic mutations on chr5q were detected using whole-exome sequencing. CSNK1A1 and G3BP1 are located within the common deleted regions (CDRs) (5q31.1-5q33.1), and another driver gene DDX41 is present in the more telomeric region (5q35.3). All the genes mentioned above exhibited haploinsufficiency because of deletions, and low expression of G3BP1 and DDX41 correlated with poor survival. The related mutational events outside of chr5q, TP53 mutation is most frequently observed in del(5q) cases. Regarding -7/del(7q), 3 CDRs were located in 7q22, 7q34, and 7q35-36. Somatic mutations of the corresponding genes to each CDR (CUX1: 7q22, LUC7L2: 7q34, EZH2: 7q35-36) were identified, indicating that the loss of function or haploinsufficiency might result in the downstream pathological consequences. These recent findings have remarkably offered insights into genetic and clinical consequences in MDS/AML cases with del(5q) and -7/del(7q).